Axially engaging positive clutch



Nov. 2l, 1950 s MANDL ETAL 2,530,887

AXIALLY ENGAGING POSITIVE CLUTCH Filed Apr-i1 2e, 1945 2 sheets-sheet 2 lA [IMM 40 36 INVENTORS Hyg-77W e t, wl/M Referring to Figs. 1 to 6 inclusive of the drawings, the improved rotary motion transmitting assemblage shown therein, comprises in general a portable main casing 9 having therein a bore I8 one end of which is provided with internal screw threads II and is closed by a tubular plug I2 disposed coaxially of the bore I0; a driven element or member I3 journalled for rotation Within the casing bore I8 and having a medial cam groove I4 and a rigid axial sleeve I5 projecting centrally toward the plug I2; a driving element or member I6 journalled for rotation by means of a flexible drive shaft I'I, within the plug I2 and having a polygonal end projection I8 adapted to be inserted within an end recess or socket I9 formed in the sleeve I5 to provide a driving connection between -the driving and driven members I6, I3; resilient means such as a compression spring coacting with the driven member I3 and with the projection I8 out of the socket I9; and latch means carried by the casing plug I2 for establishing the driving connection and for facilitating removal of the driving member I6 from the plug I2.

The exterior of the main casing 9 may assume any suitable shape and may if desired, be provided with a manipulating handle Yin order to permit convenient disposition thereof in various positions; and the rotary driven member I3 is provided with an integral end extension 2l of approximately the same diameter as that of the sleeve I5 and is rotatably supported within the casing bore I8 by means of combined guide and thrust bearings 22, 23. These bearings 22, 23 are preferably of an anti-friction type having inner and outer races coacting respectively with the sleeve I5 and extension 2| and with the bore I8, and while the bearings 22, 23 should permit free rotation of the driven member I3 they should also be confined so as to positively prevent axial or longitudinal displacement thereof. The bearings 22, 23 are therefore held in spaced relation relative to each other by the enlarged medial portion of the rotary driven member I3, and a threaded bushing 24 coacts with the internal casing threads I I and with the outer race of the bearing 23 so as to prevent separation of the bearings and axial displacement of the member I3.

The threaded bushing 24 is engaged by a peripheral ange 25 formed on the hollow closure plug I2, and this ange 25 is engaged by a second threaded bushing 26 snugly embracing the plug I2 and which also coacts with the internal casing threads II, thereby locking the bushing 24 in place. An annular packing assemblage 2'I is snugly confined within the bushing 24 and between the bearing 23 and the inner end of the plug I2, and snugly embraces the sccketed end of the sleeve I5 thus sealing the portion of the bore I8 in which the member I3 and bearings 22, 23 are confined. The bushings 24, 28 have end notches adapted to be engaged by a Spanner wrench in order to effect insertion and removal thereof; and the plug I2, packing assemblage 21, annular bearing 23, driven member I3, and annular bearing 22 may obviously be withdrawn from the casing bore I8 in succession, upon removal of the threaded bushings 24, 26.

The medial cam groove I4 of the driven member I3 is annular but lies in a plane which is inclined relative to the central axis of the bore I8, and a tapered roller 28 which is journalled for rotation upon a reciprocable power take-oil? element 29, snugly coacts with the groove I4.

The element 29 is guided for reciprocation within a slot 38 formed in the casing 9 adjacent to the bore I D, and has an integral external projection 3l adapted to impart reciprocation to various types of reciprocable tools and implements, in an obvious manner. With this assemblage of parts, the rotary motion of the driven member I3 is directly and effectively converted into reciprocating motion of the element 29 while the member I3 is xed against axial displacement by the bearings 22, 23; and the slot 30 may normally be sealed by a removable plate 32 attached to the casing 9, or otherwise, in order to permit lubricant such as oil or grease to be conned within the casing bore IIJ, groove I4, bearings 22, 23, and slot 30.

The flexible drive shaft I'I which may be rotated at high or low speed from an electric motor or the like, is housed within a exible tubular casing 33 which is firmly secured to a vthreaded fitting 34 screw threaded into an outer end socket of a bearing element or sleeve 35 in which the driving member I6 is journalled, and the exible shaft I 'I and confining casing 33 may be of any desired length in order to permit the motion transmitter unit to be moved about freely throughout a considerable range. The power delivery end of the flexible shaft II is sweated or otherwise rmly secured to the rotary driving member IG which is snugly tted within a central bore of the bearing element or sleeve 35, and the inner end of the member I6 terminates in a circular central recess formed in the inner end of the sleeve 35. The polygonal motion transmitting projection I8 is provided with apocket which snugly engages the motion delivery end of the member I6 and is normally rigidly attached thereto by a shear pin 36, and this pin 36 is adapted to break or to be severed in case excessive resisting force is applied to the projection I8. The driving member I6 is thus freely rotatable within the sleeve 35, and the polygonal projection I8 is normally rigidly attached thereto for driving purposes.

As shown in Fig. 6, the polygonal driving projection I8 has a square transverse cross-section, while the socket recess I9 formed in the central sleeve I5 of the driven member I3 has a cross-shaped transverse cross-section and is adapted to loosely receive the projection I 8. This formation of the driving connection is important, especially when transmitting rotary motion at high speed, since it permits the projection I8 to readily and quickly enter the socket I9 when the former is moved or shifted axially toward the latter. The compression spring 28 is confined Within coaxial central bores formed in the driven member I3 and sleeve I5, and one end of this spring 28 coacts directly with the member I3 while its opposite end presses against a plunger 3'I slidably mounted Within the sleeve I5 and adapted to engage the end of the polygonal driving projection I8. When the projection I8 is thus engaged by the plunger 31, the spring 28 tends to push the driving projection out of the socket recess I9, but the projection IB may be readily inserted within the recess I9 in opposition to the spring pressure by merely grasping the flexible shaft casing 33 and fitting 34 and by thereafter sliding the bearing sleeve 35 within the plug I2 toward the driven member I3.

Obviously, unless means are provided for preventing the spring 20 from pushing the projection I8 out of the socket recess I 9 when the driving and driven members I6, I3 have been thus a drivingly intercotmected, :no -zdriving "connection `.vvillsbe maintained: :and We have .therefore :pro-

vided improved latch means for maintaining .ea

,proper irivinge connectionx-and for y:alsofacilitatzingzremevalsof `the transmitter :unit from the v 'power source. :Eor irtnesepurposes, .'"t'he :bearing :sleeve "35 Y'of the liriving member 31| 6 .provided :with `two Ilaterally"spaced peripheral fannular grooves .38; 38::an'd1tne casing :plug .12 :has two latches 40, 4I swingably suspended 'Stherefrom f'see :Figs lztofiinclnsive. "The `ylatches@ 0-1Ell Aare .fisposed on opposite-:sidesmfzthe pli-ig la andere :spaced apart alesser distance 'than :thevfgrooves 138, .rso thattbothslatehes :cannot :simultaneously :engage .bothgrooves .ably#suspededsfromthe ping :1 by .`3I2,fand"has its inner: 1.tl1e.bearing sleeve :Siti'byimeairs .of a springfd Eachlatchi, id'ltisisw'inga ipivottpin :toning endeurgeddroward and a .plunger '414. y

Withtithifsrimproved latch zassenrbly, soon :as .fthe drvng projection 8 has ibeenfproperly .inserted Within .fthe 'socket'recess i9 aasfinsifg. =l, the main :latchf'fzwillzrbe :snapped into tneaannular recesss vas. shown in '1 and: 5, st herefby".maintaming"the :.drifving conrrection between the driving member ilfand the driven. member 13'4 in Aomrrosition .to ithe .icompressedfspring e'. Rotation sof #the ilexib'le nshaft HI'I' #then ,be transmitted Vt-l'n'oii'gfh fthe id ving member wie, 'projection ;r|'8,:asoeket:recess 9, rand @sleeve Ivto the 'rotary ffdrvenrmember .1|3,tand rotation if `.this:member"will be 'fconvertediintozennstant'1re- If :it becomes idefsirafble zito l:discormect the driven member 13fromfthefdnivingmember t5, it .only necessary :for @the foperator'to #release the main latch 4B, thereby permitting thespring 1.2i) to become effective to fquicklyipush thefdriving projection |'8='eutA of fth'ew'socket 1:9 asxfshown 11in Fig. 2. 'During this saXi-al displacement of the 'projection I'and'of the ydriving 'member f=|=6, 'the "the auxiliary ylatch- 47| sincetthe "inclined :sideof the groove 39"'withfwhich latch coacted'vvill automatically .release *the same `when iinward `axial pressure lis ffappiied. A'The "drive y:may lthus be 'readily connected orrdisconnectedlby the'op- Yerator, without :danger of 'iiavingthe `sleeme'lforced ont of the Acasing 1olug JI Zby: thefspring 12B.

When it becomes desirable to removetheasling'ii, plug `|22 andfdrivenrmemberi ffromi'the driving shaft IPI., the operator wneed ffmerely fre- "the latches 1W, 'ldI 'the parts may =2obvdoasly :tbe "readily v"separated without 1 further :manipulating the latches ReassernblyV fof' the separated .parts may be justas convenientlyveiected '.byfmereiy pressing 'both @latch lhandles .and thereafter While 'the improved motion transmitting lunit shownf-in *detailin' Figs.'f1*to'16`iinelusive isT adapted itc.: also :convert Athe 'retary metier-1 ef 'the adir-wen *6 4"member :rintofreciprocatingamotinngthis particu- "Iar Lfeiadznre .constitutes :noiipart o1 :our :present invention :which also .applicable to: ai transmitfsterifor. :rotary :motion Y:011131. Such a rotary `mo- .tionltransmitting 11n-itfisfshovvn"in'lig.. F1 `wherein .some ipartsfare fsomewhatz'modied;.fbut in `which 4:tlfxle anormal f operation. is precisely fthe `same' Yas hereinbeiore ldescribed. This modied portable :rotary"motion'itransmitter ffcomprises .in .general la .tubular .-.nrain-1f'casing 9 `.having lsa icentralfbore w11) one end of .which `is provided'with v'internal 'screw `thre'acls 'iIfI .and is 4normally zclosedby a ".hllow .plug :|s2; .spaced anti-,friction 'bearings 122,.:231mounte .within rthe vcasing bore YIll; .a metal-y driven :elementor :member .2|3 journalle'd orzzrotationfvvthin the bearings 322, .2.3 .fand hav- `fing a :central :screwthreaded tool receiving :Snicket S45 'et one end :and .fai-central :driving socket aor :recess |19 lat .itsfopposite end; a 1rotary .driving .element sy or :member -t' journailed for "rotation v'by .rmeansof :a Yiiexiblef drive shaft Within'the plug I2 and having an integral polygonal end fprojectionIBfdrivingly cooperable `with the drivin'gfrecess I-Is9fo'f' .the driven `.member il 3 vla yresilfient. compression spring 2|!" "tending to :conrstan-tly separate `:the members I6', im "and to *push-the:proiecton 15S-out of the recess I9; and

:latches 40,14I .carriedby theplug f|L2 for estabfl-ishing :a driving f connection Ibetween .the lmembers .6', -.|3" :and for facilitating removal ioiztlre Mtransmitter unit from the z driving source.

In the-"mo`died assemblage, theV casing closnre V:plug ...I2 is fibored "to slidabl-y receive a ibearing --sleeve 35"'in'rvvhieh thedrivingmember iii' :is

:rotatablyiconnedfand rdirectly jcnrnalled, and

the. plug 4.l2 is normallytheld Sin place by ithreaded bushings .'24, 226 :enacting `With .the-,internal cas- "threads 11| I ,i'one Aof these bushings also serv- .ging .':to--prevent A.spreading `of fthe '..bear-ings .2 2, 2-3.

lflhessleevelis likewisel provided with Lannular reeesses .3.8, .''withwhichfthe latches d, 4fI carfried byfthe plug .|.-2 4are cooperableiinlthe same vmanneras1ere'vionsly described, and an annular `:packing .for :sealing assemblage ,527| :is 4againprof'wided Within `'the fbushing Y21| rand between Y"the bearing .23 rand thef.i'nner end of the closure. plug 11| 2. .'.Hicwever., an @addi-tional packing or :sealing The f disconnecting spring .120 fof l:the -modied eroftaryp;motion utransmitterwis of relatively ...large .diameterf'and is interposedbetween` the packing assemblage 21 and a washerrimcoacting with -an 2:abn-twente` formed fon-1 ithe: bearing sleeve i352* and the#drivingV member |16 has l.the :polygonal pro- -iection 'iformedaintegral l withaone end :thereof while its opposites end l.is 'socketed :for the recep- -.tion i-o'f laniintemnediate connecting elementi Yivvhilcli is rmlfyssecimed asbygfsweating, `to ithe lvlflexible idrivexshaft f5! A: shear 'pin- `1?6' is-'interfiposedebetween theiend ',ofcthe elemente 8 @and its conr'iing:isocket,amrfsafetysakee Aand this pin i3 6 vis :readily/'replaceable .fby merely releasing the fitting 1134 ".'from the bearing sleeve '3:5' and by -:fthereater 'removing `the driving member ifaxially ef rom rrvithin-:Fthe :bearing zrsleeve.

:previously iindicate, .the ,modified rotary :motion transmitter operates. and functions fthe '.'same'as" thennitfvvihieh"fhas'lpreviously lbeensfclescribed fin .detaiLfzandialarg-le variety; of diiierent rotaryfvtc'cxls may "obvionslyibe Aapplied Lto Afthe ftnreadedfsocket #Ifmnileithe casingfl" 'may again bemoved about freely and disposed in any desired position, by the operator. The casing 9 may be filled with suitable lubricant and the anti-friction bearing conning chamber is thoroughly sealed against possible escape of lubricant by the packing assemblages 2'I, 41, while all of the normally concealed parts are freely removable upon withdrawal of the bushings 26, 24 and of the closure plug I2. The main latch 49 of the modified assemblage functions to maintain the driving connection between the driving member I6' and the driven member I3l in opposition to the pressure exerted by the spring and in the modification this spring is stationary and does not rotate with the driving and driven members. The auxiliary latch 4I serves as a stop for the bearing sleeve I2 and member I6 during interruption of the power connection, and the casing assembly and driven member I3 are readily removable from the power source by merely releasing both of the latches 40, 4I.

From the foregoing detailed description it will be apparent that our present invention provides an improved rotary motion transmitter which besides being extremely simple and compact in construction, is also highly efcient in use and flexible in its adaptations. The improved rotary motion transmitting mechanism is obviously adapted to be conveniently operated in any desired position and in cramped quarters to effectively drive numerous different types of tools `for performing various operations. The imfproved transmitting unit is exceptionally powerful and is readily manipulable, and the improved latches 40, 4I besides enabling convenient control of the power transmission and complete release of the transmitter from the power source, also permits the transmitting unit to be revolved about the driving member and its bearing sleeve so as to permit convenient actuation of the latches either from the right or left sides or from the top or bottom of the assemblage. The provision of the annular grooves 38, 39 with which the latches 40, 4I are adapted to coact, i'salso important since these grooves permit the power unit to be revolved freely about its longitudinal axis while in use, while also enabling the latches to become effective regardless of the relative position of the unit and its sleeve 35. When the 4 sleeve has been removed from the portable unit the socket I9 may also be utilized to facilitate the interchangeable attachment of tools to the socket 45, by inserting a screw driver or the like into the socket and thus preventing free ro- ,y

tation of the member I3.

The rotary motion transmitter is adapted to be actuated directly from a high speed motor and has actually been operated in a highly successful manner at speeds exceeding three thou- :ous parts of the improved assemblage may be effectively lubricated andare amply protected against damage at all times while still being oonveniently accessible, manipulable, and controllable. and thesimplicity of the structure makes or ul) it possible to manufacture the same with ordinary machineryv and at exceedingly moderate cost.

It should be understood that it is not desired to limit this invention to the exact details of construction or to the precise mode of operation, herein shown' and described, for various modications within the scope of the appended claims may occur to persons skilled in the art.

We claim:

1. In a rotary motion transmitter, a casing having a bore internally threaded at one end, a tubular plug extending into said threaded bore end, a driven member journalled for rotation within said bore inwardly beyond said threaded end, a ring nut coacting with said threaded end to prevent axial displacement of said driven member, a packing coacting with said driven member adjacent to said ring nut, another ring nut coacting with said threaded end and with said plug for urging the latter against said packing, a driving member journalled for rotation within said plug, and means for drivingly connecting said members within said casing.

2. In a rotary motion transmitter, a casing having' a bore and being internally threaded at one end, a centrally bored plug extending into said threaded casing end, a driven member rotatable within said casing bore beyond the inner end of said plug, a ring nut coacting with said threaded casing end to prevent axial displacement of said driven member, another ring nut coacting with said plug and with said threaded casing endv to preventaxial displacement of the plug, a driving member journalled for rotation within said plug, means for drivingly connecting said members within said casing, and means carried by said plug for actuating said connecting means;

3. In a rotary motion transmitter, a casing, driving and driven members journalled for rotation relative to said casing, one of said members having a recess and the other having a projection movableI into said recess to establish a driving connection between said members, and one member also having an abutment thereon, means constantly tending to urge said projection out of driving contact with said recess, a bearing element supporting said driving member and being cooperable with said abutment to shift said member toward the driven member, a latch cooperable with said casing and with said bearing element to hold said projection in driving engagement with said recess, and a second latch cooperable with said casing and with said element to prevent said driving member from being forced out of said casing when said first mentioned latch is released, said driving member being freely removable from said casing when said second latch is released.

4. In a rotary motion transmitter, a casing, axially alined driving and driven members journalled for rotation within said casing, one of said members having an end recess and the other having an-end projection insertible within said recess to establish a driving connection between said members, and one member also having an abutment thereon, resilient means constantly tending to urge said projection out of driving engagement with said recess, a bearing element supporting said driving member and being cooperable with said abutment, and movable to shift said member axially toward the driven member, a latch carried by said casing and being cooperable with said bearing element to hold said pro- 4jection in driving contact with said recess, and

asecond latch-carried b-ysaidcasingand also being-cooperablewith said' elementtostopV and to Y ing a centralfend recess: and the other having a central polygonal end*r projectionmovable. into saidrecess to drivingly connect said members, onel of said membersalso having an abutmentsurfaceA thereon, .aspring tending to constantly urge said projection out -of' driving` engagementy with said recess', abearing sleeve disposed within an end ofV said casing andbeingcooperable with said surface and' shift'able to counteract said spring while rotatably supporting said driving member, a drive maintaining-f latch' cooperable Withsaid casing and withsaidlsleeve toi hold said projection in'driving cooperation with said recess in oppositiontofsaid spring, and a second latch cooperablewith said casing and with said sleeve tol stop,` and to prevent the latter from being forced out ofsaid casingby. saidspringvvhen said drive maintaining latch is' released, said driving member andv sleeve being' freely axially removable from said'casing Whensaid second latch is released.:

6. In a rotary motion transmitter, a casing, axiallyialined driving anddriven members rotatablewithinsaid casing, said'v driving memberhaving a central polygonal end projection provided With an'abutment `and said driven member having-a. central end recessdrivingly. cooperable with` said projection, a" spring! constantly tending, to axially separat'ezsaid membersy and to urge said projection out' of` driving engagement with. said recess, a, bearing sleeve for said'. drivingA member having a surface cooperable` Withsaid abutment and being movable along the' member axis-to counteract said spring andi extending into an end of said casing', said sleeve having therein spaced annular grooves,a` latchcarried by lsaid casing. andi being cooper-'able with one of said" grooves to maintain a driving connection between said projection and saidrecess, and a4 stop latch carried by said* casing and being cooperable with the other of saidlgrooves to prevent the driving member from being forced out of said casing by saidI spring when said first mentioned latc'hi's released,.said driving member and said sleeve being freely axially removable "from said casing When-said-.latches are released.

'7. In a rotary motion transmitter, a casing having a'bore and a hollow plug normally closing anendofsaid bore, a'driven member journalled for rotation centrally Within said bore, a driving member journalled'forfrotation centrally of said hollow "plugbone of said members having an' end recess and"tlie'other havingan' end projection drivingly cooperable with said recess, and one member also having an abutment thereon, means constantly tending to separate said members so as to interrupt the driving connection afforded by said recess and projection, a bearing element supporting said driving member and coacting with said abutment to move said member toward the driven member, a main latch coacting with said element to maintain said driving connection, and an auxiliary latch for preventing said driving member from being forced out of said casing when-said main latch is--relea-sed,` saidj driv-'f' ing-f member-` being removable from-saidhollow plug when both latches have-been--releasedf 8. In af rotary motion transmitter, a casi-ng having-a -bore-and ahollow plug normallyclosing-v an end'of said bore,y a; driven member journalledf for rotation centrally-Withini saidbore, adriving member journalled' for rotationy centrally of-4 saidf closure plug, saidl driven-member-havinga-nl end recess and saiddriving member having a` polygonal" end prcjection-provided "withan--abutnient and 1dri-vinglycooperablel with saidl recess;

resilient-means constantly-tending to shift saiddriving member so as to interrupt the-drving-con-V nection aforded by said recess and projection,- a-i-bea-ring sleeve for supporting-'said-driving-member located-centrallyWithin said plug andbeingcooperable with said abutment and axiallymovable tocounteract-said resilient-means; amain latchcoopera-ble Withl said sleeveto maintainsaid driving connection,` and-anauxiliary-latchcooperable-vv-ithn said sleeve to prevent-said driv ingmember frombeing'- forcedl outl-` of saidI plug when saidt main latch is released, saiddriving member and saidsleevebeing freely axially-- removable from said-plug' When-both of said latches are released.-

9; In a rota-ry motiontransmitter, ahol-10W4 casing-having a--removable-tubula-r closurev plug a-tone end, abear-ing sleeve slidable-axially- Wit-hin:-A

said plug, a pairI ofspaced bea-rings mounted withinsaid` casing, a' driv'en-` member2 journalled for rotation -withinsaid bearing-sand cooperating-- with said plug-to maintain-the bearingsin fixed spaced relation, a driving/member' journalled for' rotation within said sleeve `and hav-ing` an abutment cooperable with sa-id` sleeve-tolcausei the lat-k ter to axially shift the-driving member towardy said driven-member, the'adjacent-endsv of' said membersbeing formed' to; provide a releasabledrivingconnection; means-constantlytending toseparate said members so as to interruptsaid connection, and latch means for maintaining said sleeve within-said plug, said drivingy member being'- removable from said-plugwhen` said-'latch means are released and both-of said-members being re-r movable from said casing Wheni-said closure plug is removed.l

10. In a rotar-y motion transmitter, a hollow casing havnga removabletubular closure-plug at one end, a pair of' spaced bearingsflmo'unted vvithinV said casing, a driven member journalled` for rotation Within said-,bearings and'v cooperating- With said plugtomai'ntain'the bearings-in fixed; spaced relation, afbearingsleeve slidably mountedwithin saidfclosure-'plug and having atransverse surface, a-driving meinberfjournalledfor'rotation Within said sleeve-and'- hav-ing thereonanabut-` mentengageable with said surface andv being axially movable by thesleevetoward'said driven member, the adjacent ends-ofsaidm'embers being formed to vprovide a` rele'asable' driving connection; means constantly tendingV to separate saidV mem*- bers so as to-interrupt-said connection; a main latch coacting WithV saidv sleeve to maintain said`V driving connection against the action of said drive interrupting means, and an auxiliary latch also coacting with said sleeve to prevent said driving member from being forced out of said plug by said drive interrupting means, said driving member and sleeve being axially removable from said plug When both latches are released.

11. In a rotary motion transmitter, a portable casing adapted to be carried in the hands of an operator, a driven member journalled for rotation within said casing and being fixed against axial displacement, a bearing sleeve slidably confined within said casing and having a transverse surface, an axially shiitable driving member having an abutment cooperable with said surface and being rotatably confined within said sleeve in axial alinement with said driven member, the adjacent ends of said members being formed to provide a driving connection, a flexible driving shaft directly attached to said driving member, resilient means constantly tending to iterrupt said driving connection, and a manually manipulable latch associated with said casing for releasably maintaining said driving connection in opposition to said resilient means, said sleeve coacting with said driving member in a manner whereby sliding of the sleeve in one direction will establish said driving connection.

12. In a rotary mot1on transmitter, a portable casing adapted to be carried in the hands of an operator, a driven member journalled for rotation within said casing and being fixed against axial displacement, a bearing sleeve slidable axially within said casing and having a transverse surface, an axially shiftable driving member having an abutment cooperable with said surface and being journalled in said sleeve in axial alinement with said driven member, a flexible driving shaft attached to said driving member, one of said members having a square end projection loosely insertible within a cross-shaped socket in the adjacent end of the other to provide a releasable driving connection between the members, resilient means within said casing constantly tending to interrupt said driving connection, and latch means associated with said sleeve for maintaining said driving connection at will in opposition to the action of said resilient means, said sleeve surface coacting with said driving member abutment in a manner whereby sliding of the sleeve toward said driving member will establish said driving connection.

13. In a rotary motion transmitter, a casing, axially alined driving and driven members rotatable within said casing, one of said members having a central polygonal end projection and the other of said members having a central end recess drivingly cooperable with said projection, and one member also having an abutment thereon, means tending to constantly separate said members and to urge said projection out of driving vengagement with said recess, a bearing sleeve for said driving member extending into an end o f said casing and having therein spaced annular grooves and also having a transverse surface thereon, and latches carried by said casing and being cooperable with said grooves to maintain a driving connection between said projection and said recess and to also prevent the driving member from being forced out of said casing when said driving connection is interrupted, said bearing sleeve being rotatable relative to said latches and the latter being cooperable with said grooves in any position of said relative rotation and the sleeve surface also being cooperable with said 12 driving member abutment and shiftable toward said driven member to establish said driving connection.

14. In a rotary motion transmitter, a casing having a bore and being internally threaded at one end, a centrally bored plug extending into said threaded casing end, a driven member rotatable within said casing bore beyond the inner end of said plug, a ring nut coacting with said threaded casing end to prevent axial displacement of said driven member, another ring nut coacting with said plug and with said threaded casing end to prevent axial displacement of the plug, a bearing sleeve slidable within said plug s bore and having a transverse surface, a driving member having an abutment cooperable with said surface and being rotatable within and movable by said bearing sleeve, and means cooperable with said sleeve and with said plug to maintain a driving connection between said members.

15. In a rotary motion transmitter, a casing having a bore, a centrally bored removable plug normally closing one end of said casing bore, a driven member journalled for rotation within said casing bore, a bearing sleeve slidable within said plug bore and having a transverse surface, a driving member having an abutment cooperable with said surface and being rotatable within said bearing sleeve and axially movable thereby toward said driven members to establish a driving connection between the members, and a latch carried by said plug and coacting with said sleeve to maintain said driving connection.

16. In a rotary motion transmitter, a casing having a bore, a centrally bored removable plug normally closing one end of said casing bore, a driven member journalled for rotation within said casing bore, a bearing sleeve slidable within said plug bore and having a transverse surface, a driving member having an abutment cooperable with said surface and being rotatable within said bearing sleeve and axially movable thereby toward said driven member to establish a driving connection between the members, a latch carried by said plug and coacting with said sleeve to maintain REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Name Date Richards Apr. 21, 1896 Evslin Oct. 12, 1920 Strom Aug. 5, 1924 Hoover Jan. 15, 1929 Peltz Jan. 17, 1939 Number 

